WG Review: Recharter of Behavior Engineering for Hindrance Avoidance (behave)

[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index]

 



A modified charter has been submitted for the Behavior Engineering for Hindrance Avoidance (behave) working group in the Transport Area of the IETF.  The IESG has not made any determination as yet.  The modified charter is provided below for informational purposes only.  Please send your comments to the IESG mailing list (iesg@ietf.org) by Tuesday, May 22, 2012.

Behavior Engineering for Hindrance Avoidance (behave)
-----------------------------------------------------
Current Status: Active
Last updated: 2012-05-10

 Chairs:
     Dan Wing <dwing@cisco.com>
     Dave Thaler <dthaler@microsoft.com>

 Transport Area Directors:
     Wesley Eddy <wes@mti-systems.com>
     Martin Stiemerling <martin.stiemerling@neclab.eu>

 Transport Area Advisor:
     Wesley Eddy <wes@mti-systems.com>

 Mailing Lists:
     General Discussion: behave@ietf.org
     To Subscribe:       https://www.ietf.org/mailman/listinfo/behave
     Archive:            http://www.ietf.org/mail-archive/web/behave

Description of Working Group

The working group creates documents to enable IPv4/IPv4 and IPv6/IPv4
NATs to function in as deterministic a fashion as possible.

To support deployments where communicating hosts require using
different address families (IPv4 or IPv6), address family translation is
needed to establish communication. In BEHAVE's specification work on
this topic it will coordinate with the V6ops WG on requirements and
operational considerations.

"An IPv4 network" or "an IPv6 network" in the descriptions below refer
to a network with a clearly identifiable administrative domain (e.g., an
enterprise campus network, a mobile operator's cellular network, a
residential subscriber network, etc.). It will also be that network that
deploys the necessary equipment for translation.

BEHAVE will finish four scenarios: (1) An IPv6 network to IPv4
Internet, (2) an IPv6 Internet to an IPv4 network, (3) an IPv6 network
to an IPv4 network, and (4) an IPv4 network to an IPv6 network.

Specifically, BEHAVE will update the NAT MIB (RFC 4008) to be
consistent with the management aspects of its IPv6/IPv4 NAT solutions,
and specify IPFIX information elements to meet logging requirements,
reusing existing elements, if possible. 

In addition, when a NAT (such as a NAT64 in the "An IPv6 network to
IPv4 Internet" scenario) serves multiple subscribers, inter-subscriber
fairness issues arise.  As such, BEHAVE will complete its work on
Carrier Grade NAT requirements for such scenarios, and update the NAT
MIB as needed to meet such requirements.  BEHAVE will not, however,
standardize IPv4-specific behavioral mechanisms.

The following scenarios remain in scope for discussion, but will not be
solved by BEHAVE:

* An IPv4 network to IPv6 Internet, i.e. perform translation between
IPv4 and IPv6 for packets in uni- or bi-directional flows that are
initiated from an IPv4 host towards an IPv6 host. The translator
function is intended to service a specific IPv4 network using either
public or private IPv4 address space.

* IPv4 Internet to an IPv6 network, i.e. perform translation between
IPv4 and IPv6 for packets in uni- or bi-directional flows that are
initiated from an IPv4 host towards an IPv6 host. The translator
function is intended to service a specific IPv6 network where selected
IPv6 hosts and services are to be reachable.

This group will also provide reviews of any work by the MBoneD WG on
multicast translation, including control traffic (IGMP and MLD),  Single
Source Multicast (SSM) and Any Source Multicast (ASM).

If the WG deems it necessary, BEHAVE will revise RFCs previously
published by BEHAVE.

Goals and Milestones

Done	Submit BCP that defines unicast UDP behavioral requirements for 
        NATs to IESG 
Done	Submit a BCP that defines TCP behavioral requirements for NATs 
        to IESG 
Done	Submit a BCP that defines ICMP behavioral requirements for NATs 
        to IESG 
Done	Submit informational that discusses current NAT traversal 
        techniques used by applications 
Done	Submit BCP that defines multicast UDP 
Done	Submit revision of RFC 3489 to IESG behavioral requirements for 
        NATs to IESG 
Done	Submit informational document for rfc3489bis test vectors 
Done	Submit experimental document that describes how an application 
        can determine the type of NAT it is behind 
Done	Submit BCP document for DCCP NAT behavior 
Done	Determine relative prioritization of the four translation cases. 
        Documented in IETF74 minutes. 
Done	Determine what solutions(s) and components are needed to solve 
        each of the four cases. Create new milestones for the 
        solution(s) and the components. Documented in IETF74 minutes. 
Done	Submit to IESG: relaying of a TCP bytestream (std) 
Done	Submit to IESG: relay protocol (std) 
Done	Submit to IESG: TURN-URI document (std) 
Done	Submit to IESG: IPv6 relay protocol (std) 
Done	Submit to IESG: framework for IPv6/IPv4 translation (info) 
Done	Submit to IESG: stateless IPv6/IPv4 translation (std) 
Done	Submit to IESG: stateful IPv6/IPv4 translation (std) 
Done	Submit to IESG: DNS rewriting for IPv6/IPv4 translation (std) 
Done	Submit to IESG: IPv6 prefix for IPv6/IPv4 translator (std) 
Done	Determine need and scope of multicast 6/4 translation 
Done	Submit to IESG: FTP ALG for IPv6/IPv4 translation (std) 
Jul 2012  Submit to IESG: large scale NAT requirements (BCP) 
Done	Submit to IESG: Analysis of NAT-PT considerations with IPv6/IPv4 
        translation (info)
Jul 2012  Submit to IESG: avoiding NAT64 with dual-stack host for 
          local networks (std) 
Done    Submit to IESG: host-based NAT46 translation for IPv4-only 
        applications to access IPv6-only servers (std) 
Nov 2012  Submit to IESG: updates to NAT MIB for NAT64 (std)
Nov 2012  Submit to IESG: updates to NAT MIB for CGNs (std)
Nov 2012  Submit to IESG: IPFIX information elements (std)



[Index of Archives]     [IETF]     [IETF Discussion]     [Linux Kernel]

  Powered by Linux